[{"data":1,"prerenderedAt":112},["ShallowReactive",2],{"article:novas-tecnologias-e-o-design-de-tatuagens-interativas":3},{"success":4,"article":5,"request":109},true,{"parent":6,"langs":7,"_id":10,"contributors":11,"typeData":24,"data":99,"slugs":107,"slug":108},"39f260d6-d61f-4dfe-b1f7-a6c315c260bd",[8,9],"primary","secondary","8c7e04d4-f480-48a9-b107-45209995fcc3",[12,16,20],{"lastName":13,"name":14,"_id":15},"Bitarello","Breno","9f4698bd-23fb-4cf4-b8ba-48224d6ed9ef",{"lastName":17,"name":18,"_id":19},"Niemeyer","Lucy Carlinda da Rocha de","76ba8e9a-0a20-4a96-b940-5fa22ec815aa",{"lastName":21,"name":22,"_id":23},"Queiroz","João","764bc210-c25a-4e19-85c0-144f3dc4725d",{"startPage":25,"references":26,"endPage":96,"track":97,"has_file":4,"doi":98},4329,[27,30,33,36,39,42,45,48,51,54,57,60,63,66,69,72,75,78,81,84,87,90,93],{"id":28,"label":29},"248feb6a-fde9-4876-ad03-1c647c7f0058","\u003Cp>BARONE, P., YOON, H., ORTIZ-GARC, R., ZHANG, J., AHN, J., KIM, J., STRANO, M. Modulation of Single-Walled Carbon Nanotube Photoluminescence by Hydrogel Swelling. \u003Cstrong>ACS Nano\u003C/strong>. n.º 12, p. 3869-3877, 2009.\u003C/p>",{"label":31,"id":32},"\u003Cp>BARRESI, J. Some boundary conditions on embodied agents sharing a common world. In: Wachsmuth, I., Lenzen, M., Knoblich, G. (Ed.). \u003Cstrong>Embodied Communication in Humans and Machines\u003C/strong>. New York: Oxford University Press, 2008. Chapter. 2, p. 29-52.\u003C/p>","69605a11-1cb0-4fae-9aa9-117d9c8232ee",{"id":34,"label":35},"41cfa023-e471-4d80-a6fe-71518f8f9396","\u003Cp>CHERUKURI, S., VENKATASUBRAMANIAN, K., GUPTA, S. K. S. Biosec: A Biometric Based Approach for Securing Communication in Wireless Networks of Biosensors Implanted in the Human Body. In: \u003Cstrong>International Conference on Parallel Processing Workshops, Proceedings of the IEEE 2003\u003C/strong>.\u003C/p>",{"label":37,"id":38},"\u003Cp>DUFF, T., MUHLING, J., GODINHO, M. G., HODGETTS, S. How to Make Living Viral Tattoos. \u003Cstrong>Leonardo Transactions\u003C/strong>. Leonardo Journal of the International Society for the Arts, Sciences and Technology (ISAST), 2010.\u003C/p>","56c72921-9828-4bb9-85ce-705f0b1fe1d2",{"label":40,"id":41},"\u003Cp>ESSLINGER, H. \u003Cstrong>Dattoos\u003C/strong>. Available at: http://tinyurl.com/3x6lcx5 Accessed 12 January 2011\u003C/p>","53832747-e709-49f7-a4f3-9b35d02422cf",{"label":43,"id":44},"\u003Cp>GALANTUCCI, B., STEELS, L. The emergence of embodied communication in artificial agents and humans. In: WACHSMUTH, I., LENZEN, M., KNOBLICH, G. (Ed.). \u003Cstrong>Embodied Communication in Humans and Machines\u003C/strong>. New York: Oxford University Press, 2008. Chapter. 11, p. 229-256.\u003C/p>","d5cd686e-b33f-4658-9469-280a525b6996",{"label":46,"id":47},"\u003Cp>KIM, D., KIM, Y., AMSDEN, J., PANILAITIS, B., KAPLAN, D. L., OMENETTO, F. G., ZAKIN, M. R., ROGERS, J. A. Silicon electronics on silk as a path to bioresorbable, implantable devices. \u003Cstrong>Applied Physics Letters\u003C/strong>. 2009.\u003C/p>","246e81cc-c65a-43e2-a065-1c86b8db8e64",{"label":49,"id":50},"\u003Cp>KIM, R., KIM, D., XIAO, J., KIM, B., PARK, S., PANILAITIS, B., GHAFFARI, R., YAO, J., LI, M., LIU, M., MALYARCHUK, V., KIM, D., LE, A., NUZZO, R. G., KAPLAN, D. L., OMENETTO, F. G., HUANG, Y., KANG, Z., ROGERS, J. A. Waterproof AlIn GaP optoelectronics on stretchable substrates with applications in biomedicine and robotics. \u003Cstrong>Nature Materials\u003C/strong>. p. 929-937, 2010.\u003C/p>","551dff2c-720e-4be7-b157-0a5c77d35e12",{"label":52,"id":53},"\u003Cp>LEVY, D. H., CHERRY, J. F. Changeable tattoos. \u003Cstrong>USPTO Patent Full-Text and Image Patent Database\u003C/strong>, 2001.\u003C/p>","57033a05-8b20-4276-9477-331d19689051",{"label":55,"id":56},"\u003Cp>LIOLIOS, C., DOUKAS, C., FOURLAS, G., MAGLOGIANNIS, I. An Overview of Body Sensor Networks in Enabling Pervasive Healthcare and Assistive Environments. Proc. In: PETRA’10, \u003Cstrong>Proceedings of the PETRA 2010\u003C/strong>.\u003C/p>","d8703a70-ea46-4895-9413-3051e8c0ff87",{"label":58,"id":59},"\u003Cp>MADAM, A., CANEEL, R., PENTLAND, A. \u003Cstrong>GroupMedia\u003C/strong>: Distributed Multi-modal Interfaces. State College: Pennsylvania, 2004.\u003C/p>","c4585675-7d3e-4cb9-bfbb-c914147c4a68",{"label":61,"id":62},"\u003Cp>MIELKE, J. Digital Tattoo Interface. In: \u003Cstrong>Greener Gadgets Design Competition 2008\u003C/strong>. Available at: http://tinyurl.com/2rbkeh Accessed 10 April 2010\u003C/p>","e20dbe16-f535-4885-b000-3d89a9203a17",{"label":64,"id":65},"\u003Cp>MORSY, H., METTE, M., LARS, T., AND JEMEC, G. B. E. \u003Cstrong>Skin Research and Technology\u003C/strong>. n.º 13, p. 444–448, 2007.\u003C/p>","af52b7e3-9a26-4a1d-b770-589793182678",{"label":67,"id":68},"\u003Cp>Ohmynews. \u003Cstrong>Programmable Tattoos\u003C/strong>: Digital displays for your body. Available at: http://tinyurl.com/jr9ad Accessed 05 April 2010\u003C/p>","1de87d99-cb57-4466-9a1a-d05f248f1e1b",{"label":70,"id":71},"\u003Cp>PANTELOPOULOS, A., BOURBALKIS, G. N. A Survey on Wearable Sensor-Based Systems for Health Monitoring and Prognosis. \u003Cstrong>IEEE Trans. Syst., Man Cybern.-Part C. Appl. Rev.\u003C/strong> n. º 1, 2010.\u003C/p>","5024b0ab-fcb1-4cd7-acf4-d2ffe02c929f",{"id":73,"label":74},"2aeb7e12-54f3-485b-857a-101c6c19b7d2","\u003Cp>Philips Design. \u003Cstrong>Design Probes\u003C/strong>. Available at: http://tinyurl.com/y8gs3m4 Accessed February 2010\u003C/p>",{"label":76,"id":77},"\u003Cp>POST,E. R., REYNOLDS, M., GRAY, M., PARADISO, J., GERSHENFELD, N. \u003Cstrong>Intrabody Buses for Data and Power\u003C/strong>. Phisics and Media. MIT Media Laboratory: Cambridge, 1997.\u003C/p>","41bc0623-8e8d-4c0c-9610-e3be865a1435",{"id":79,"label":80},"2b1dadad-080f-441a-b4f8-2958db67b2d2","\u003Cp>SEYMOUR, S. \u003Cstrong>Fashionable Technology\u003C/strong>: The Intersection of Design, Fashion, Science, and Technology. Vienna: Springer-Verlag/Wien, 2008.\u003C/p>",{"label":82,"id":83},"\u003Cp>‘Tattoo’ may help diabetics track their blood sugar: Chemical engineers are working on carbon nanotubes that could be injected under the skin to reveal blood glucose levels, 2010. \u003Cstrong>MIT news\u003C/strong>. Available at: http://web.mit.edu/newsoffice/2010/glucose-tattoo-0528.html. Accessed 23 March 2011\u003C/p>","8c3abbec-25ea-4df8-a9cf-55c0de721b81",{"label":85,"id":86},"\u003Cp>\u003Cstrong>Technology (E-INK)\u003C/strong>. Available at: http://www.eink.com/technology.html Accessed 03 April 2010\u003C/p>","8642cacf-9073-4b83-8c8a-78e092ebf864",{"id":88,"label":89},"564108c8-6796-4a2c-90d7-ebf235d75efd","\u003Cp>The Glucose-Monitoring Tattoo: A novel nanosensor could be used for skin-based glucose sensing (2009). \u003Cstrong>MIT Technology Review\u003C/strong>. Available at: http://www.technologyreview.com/biomedicine/22014/. Accessed 28 July 2010\u003C/p>",{"label":91,"id":92},"\u003Cp>VIVENTI, J., KIM, D., MOSS, J., KIM, Y., BLANCO, J., ANNETTA, N., HICKS, A., XIAO, J., HUANG, Y., CALLANS, D., ROGERS, J. A., LITT, B. A conformal, bio-interfaced class of silicon electronics for mapping cardiac electrophysiology. \u003Cstrong>Sci. Transl. Med.\u003C/strong>, 2010.\u003C/p>","bfbe6c2f-a919-43cb-993d-8759422b90a4",{"id":94,"label":95},"78922f22-772e-4419-b60f-d7d70fd5d62d","\u003Cp>WACHSMUTH, I., LENZEN, M., KNOBLICH, G. Introduction to embodied communication: why communication needs the body. In: WACHSMUTH, I., LENZEN, M., KNOBLICH, G. (Ed.). \u003Cstrong>Embodied Communication in Humans and Machines\u003C/strong>. New York: Oxford University Press, 2008. Chapter 1, p 1-28\u003C/p>",4337,"vde1p5mx","",{"primary":100,"secondary":103},{"keywords":101,"excerpt":98,"title":102},"\u003Cp>tatuagens dinâmicas, design de interação, comunicação incorporada\u003C/p>","Novas Tecnologias e o Design de Tatuagens Interativas",{"keywords":104,"excerpt":105,"title":106},"\u003Cp>dynamic tattoos, interaction design, embodied communication\u003C/p>","The impact of developing technologies for the conception of “new” modalities of organic interventions will have ramifications in unpublished areas, allowing the use of new interactive epithelial artifacts (responsive dynamic tattoos), and creating new ways of embodied communication. In contrast to traditional tattoo art of static images, “new tattoo art” (NT) allows the generation of dynamic interactive images on the skin. Our main purpose here is to present a preliminary approach of some of the materials and technologies to be used in near future to design new epithelial prostheses; and speculate on the consequences of new forms of embodied communication.","New Technologies and the Design of Interactive Tattoos",[108],"novas-tecnologias-e-o-design-de-tatuagens-interativas",{"target":110,"query":111},"articles/get",{"slug":108},1780316007205]